ORIGINAL ARTICLE Korean J Intern Med 2015;30:657-664 http://dx.doi.org/10.3904/kjim.2015.30.5.657
Immunologic and non-immunologic complications of a third kidney transplantation Hyun Seon Kim1,2, Jae Young Kim1,2, Eun Jin Kang1,2, Yoon Seok Choi1,2, Ji-Il Kim1,3, In Sung Moon1,3, Bum Soon Choi1,2, Cheol Whee Park1,2, Chul Woo Yang1,2, Yong-Soo Kim1,2, and Byung Ha Chung1,2 1
Transplant Research Center, Division of Nephrology, Department of Internal Medicine, 3 Department of Surgery, College of Medicine, Seoul St. Mary’s Hospital, The Catholic University of Korea, Seoul, Korea 2
Received : April 11, 2014 Revised : May 15, 2014 Accepted : July 28, 2014 Correspondence to Byung Ha Chung, M.D. Division of Nephrology, Department of Internal Medicine, College of Medicine, Seoul St. Mary’s Hospital, The Catholic University of Korea, 222 Banpo-daero, Seocho-gu, Seoul 06591, Korea Tel: +82-2-2258-6066 Fax: +82-2-536-0323 E-mail:
[email protected]
Background/Aims: Patients who undergo repeat kidney transplantations (KTs) are considered at high risk for experiencing immunologic and non-immunologic complications. In this study, we investigated the clinical outcomes, including medical and surgical complications, of patients who underwent a third KT at our center. Methods: Between March 1969 and December 2012, a total of 2,110 KTs were performed at the Seoul St. Mary’s Hospital. Of them, we examined 11 patients who underwent a third KT, and investigated the allograft outcomes and complication rates. Results: The mean follow-up duration after KT was 72.4 ± 78.3 months. The mean age at KT was 38.2 ± 8.0 years, and seven patients (63.6%) were males. Nine patients (81.8%) underwent living-donor KT. A cross-match test yielded positive results in four of the nine patients, and all underwent pretransplant desensitization therapy. After KT, three patients (27.2%) showed delayed graft function. Acute rejection developed in four patients (36.4%), and surgical complications that required surgical correction occurred in three patients. Allograft failure developed due to acute rejection (n = 3) or chronic rejection (n = 1) in four patients. Allograft survival rates at 1, 5, and 10 years were 81.8%, 42.9%, and 42.9%, respectively; however, the allograft survival rate at 5 years was > 80% in patients who underwent KT only after results of the panel reactive antibody test became available. Conclusions: Thus, a third KT procedure may be acceptable, although aggressive pretransplant immune monitoring and patient selection may be required to reduce the risks of acute rejection and surgical complications. Keywords: Kidney transplantation; Retransplantation; Complication; Allograft survival
INTRODUCTION Kidney transplantation (KT) is considered the best treatment option for patients with end-stage renal disease [1,2]. Due to the increase in the number of patients with end-stage renal disease in Korea, the number of KTs has also markedly increased [3,4]. Moreover, longterm allograft survival rates have improved because of Copyright © 2015 The Korean Association of Internal Medicine
advancements in immune-suppressant and transplant techniques. However, a single transplant seems to be insufficient based on the limited duration of allograft survival in many patients; therefore, these patients require a further transplantation or must return to dialysis [5-8]. Many studies have investigated the clinical course of re-transplantation and have suggested that a second KT procedure shows superior patient outcomes and cost-ef-
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fectiveness compared to patients who return to dialysis after allograft failure [5,6,9-11]. In addition, patients who undergo a second KT procedure have graft survival rates similar to those who undergo a first KT procedure [1214]. Patients who undergo a third KT procedure will likely exhibit distinct characteristics compared to patients who undergo a second KT procedure because of a longer medical and surgical history, which may result in immunologic and non-immunologic complications [15,16]. However, few reports have presented the outcomes of a third KT procedure; hence, it is unclear whether a third KT is associated with better survival or whether this procedure is advisable for patients who experience a second allograft failure. Therefore, in the present study, we investigated whether a third KT procedure is advisable for patients who experience a second kidney allograft failure by reviewing the clinical outcomes and complications associated with a third KT procedure.
METHODS Between March 1969 and December 2012, a total of 2,110 KT procedures were performed at Seoul St. Mary’s Hospital. Of these, 1,950 were a first procedure, 149 were a second procedure, and the remaining 11 were a third procedure. We reviewed the clinical outcomes of patients undergoing their third KT procedure. Baseline characteristics such as sex, age, primary renal disease, and the results of immunologic tests (panel reactive antibody [PRA] tests, human leukocyte antigen [HLA] mismatch number, and cross-match tests) were collected. We also collected data on the main immune-suppressant type, dialysis status after previous allograft failure, and survival duration of the previous renal allograft. In addition, we analyzed the clinical outcomes after the third KT procedure, including postoperative recovery pattern, development of acute rejection, surgical or infectious complications, and allograft survival rates. We also compared the allograft survival rate of these patients to those of patients who had undergone their first and second KT procedures. The Institutional Review Board of Seoul St. Mary’s Hospital (KC13RISI0808) approved this study.
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Statistical analysis Statistical analyses were performed using the SPSS version 20.0 (IBM Co., Armonk, NY, USA). Data are presented as means ± standard deviations or counts and percentages, according to the data type. Patient and allograft survival rates were calculated using the Kaplan-Meier method. All tests were two-tailed, and results with a p < 0.05 were considered significant.
RESULTS Baseline characteristics The baseline characteristics of the patient populations are presented in Table 1. The mean age at the time of the third KT procedure was 38.2 ± 8.0 years, and seven of the patients (63.6%) were males. The mean follow-up duration after the third KT procedure was 72.4 ± 78.3 months. Nine patients (81.8%) underwent living-donor kidney transplantation (LDKT) and two patients (18.2%) underwent deceased donor kidney transplantation (DDKT). Three of the LDKT donors were not related to the recipients. The main immunosuppressive drug was tacrolimus in seven patients (63.6%), cyclosporine in two, and azathioprine (Imuran, GSK, Philadelphia, PA, USA) in two. The mean HLA mismatch number was 3.3 ± 1.4. The PRA test was performed in six patients before KT; the value was > 50% in four patients (66.7%). The crossmatch test was positive in four of nine patients (44.4%) who underwent LDKT. Two of these four patients (patients 7 and 10) underwent desensitization therapy with rituximab, plasmapheresis, and intravenous immunoglobulin (IVIG) whereas the other two (patients 6 and 9) received plasmapheresis and IVIG alone (Table 1).
Clinical characteristics of the previous transplantation The clinical characteristics of the previous allografts were available for 10 patients (Table 1). The mean survival duration of the first graft was 37.0 ± 38.2 months, whereas that of the second allograft was 59.5 ± 60.2 months. The mean interval between the first and second KT procedures was 63.3 ± 53.3 months, whereas that between the second and third KT procedures was 81.3 ± 58.1 months. After the second allograft failure, nine patients underwent hemodialysis; the remaining two patients underwent a preemptive third KT procedure. The donor types
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Table 1. Baseline characteristics of the patients
Case
Age/ gender
Primary renal disease
PRA, %
Cross-match test
Previous allograft survival month
Donor type
First allograft
1
32/M
CGN
No
(–)
DD
1 . 8
AZP + steroid
No
33/M
CGN
No
(–)
LURD
22 .0
56 . 2
CsA + steroid
No
3
23/M
CGN
No
(–)
LRD
0
0
AZP + steroid
No
4
35/M
CGN
No
(–)
LURD
30 .5
22 . 8
CsA + steroid
No
5
34/F
CGN
No
(–)
LRD
36 .0
76 .0
Tac + MMF + steroid
No
6
28/F
CGN
66.7
T(+), B(+)
LRD
22 .9
120 .5
Tac + MMF + steroid
PP + IVIG
7
42/M
CGN
77
T(+), B(+)
LRD
18 .0
28 .0
Tac + MMF + steroid
PP + IVIG + RTX
8
40/F
CGN
0
(–)
LURD
120 .0
0
Tac + MMF + steroid
No
9
44/F
CGN
100
T(+), B(+)
LRD
48 .0
164 .6
Tac + MMF + steroid
PP + IVIG
54/M
CGN
25
B(+)
LRD
96 .0
148 .6
Tac + MMF + steroid
PP + IVIG + RTX
37/M
CGN
100
(–)
DD
36 .0
Tac + MMF + steroid
No
11
13 .0
Pretransplant desensitization
2
10
1 .0
Second allograft
Immunosuppression regimen
PRA, panel reactive antibody; CGN, chronic glomerulonephritis; DD, deceased donor; AZP, azathioprine; LURD, living unrelated donor; CsA, cyclosporine; LRD, living unrelated donor; Tac, tacrolimus; MMF, mycophenolate mofetil; PP, plasmapheresis; IVIG, intravenous immune globulin; RTX, rituximab.
for the first and second procedures are shown in Fig. 1; grafts from living donors were used during the first and second transplantation procedures for most patients, similar to patients who underwent a third KT procedure. The causes of the first graft failure were acute rejection (7/11, 63.6%) and chronic rejection (4/11, 36.4%), whereas the causes of the second graft failure were acute rejection (6/11, 54.5%), chronic rejection (4/11, 36.4%;), and renal infarction with renal artery thrombosis (1/11, 9.1%).
(%) 100
80
60
40
20
Clinical outcomes after the third KT procedure 0
Surgical problems during the third KT procedure Table 2 shows the surgical problems observed during the third KT procedure. A total of seven grafts (63.6%) were transplanted at the right iliac fossa, whereas the other four grafts (36.4%) were transplanted at the left iliac fossa during the third KT. Prior to the third KT, 10 patients underwent nephrectomy of the previous graft.
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1st
2nd
3rd
Kidney transplantation procedures
DD
LURD
LRD
Figure 1. Proportions of donor types of patients undergoing their first, second, and third kidney transplantation procedures. Note that most patients received kidneys from living donors. DD, deceased donor; LURD, living unrelated donor; LRD, living related donor.
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Table 2. Surgical aspects and complications Case
Nephrectomy of previous graft
1
Yes
Lt. iliac fossa
Common iliac artery and vein
2
Yes
Rt. iliac fossa
Rt. external iliac artery and vein
Surgical wound infection
Transplantation site
Vascular anastomosis site
Complication Hydrocele with testicular necrosis
3
Yes
Rt. iliac fossa
Rt. external iliac artery and vein
No
4
Yes
Rt. iliac fossa
Rt. external iliac artery and vein
No
5
Yes
Rt. iliac fossa
Rt. external iliac vein and internal iliac artery
No
6
Yes
Lt. iliac fossa
Lt.. external iliac vein and internal iliac artery
7
Yes
Rt. iliac fossa
Rt. external iliac artery and vein
No Hydrocele
8
Yes
Rt. to middle iliac fossa
Rt. external iliac vein and common iliac artery
No
9
No
Lt. iliac fossa
Lt. external iliac artery and vein
No
10
Yes
Rt. to middle iliac fossa
Rt. external iliac artery and vein
No
11
Yes
Lt. iliac fossa
Common iliac artery and vein
No
Lt., left; Rt., right.
Of these patients, we performed nephrectomy of the first and second grafts in three patients, the first graft only in four patients, and the second graft only in the remaining three patients. Various methods were used for vascular anastomosis (Table 2). The right external iliac artery and vein were used in five patients (45.5%), whereas the common iliac artery and vein were used in two patients (18.2%). The left external iliac artery and vein, right external iliac vein and internal iliac artery, left external iliac vein and internal iliac artery, and right external iliac vein and common iliac artery were each used in one patient. Surgical complications were observed in three patients (27.3%). One patient each had hydrocele with testicular necrosis, mild hydrocele, and a surgical wound infection with Pseudomonas aeruginosa and Aspergillus sp., all of which were treated without sequelae. Medical problems after the third KT procedure The total follow-up duration after KT was 72.4 ± 78.3 months. Three cases of delayed graft function were noted. A total of seven episodes of infectious complications developed in five patients, which required hospitalization (Table 3). One patient (patient 2) developed disseminated tuberculosis and cellulitis. Another patient developed a perianal abscess and leukopenia that was resolved after discontinuation of mycophenolate mofetil (MMF). The remaining three patients developed acute pyelone-
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phritis. Acute rejection was observed in four patients (36.4%); three of these experienced allograft loss. One patient developed chronic pain syndrome, which presented with leg pain and numbness.
Allograft and patient outcome after the third KT procedure The patients’ clinical outcomes are presented in Table 3. During follow-up, allograft failure developed in a total of four patients owing to acute rejection in three patients and chronic rejection in one patient. Therefore, the 1and 5-year allograft survival rates were 81.8% and 42.9%, respectively. However, none of the patients died during the follow-up period. We divided the patients into two groups, as follows: cases in which the KT was performed prior to the use of tacrolimus and MMF (pre-tacrolimus/MMF group; in this group, azathioprine or cyclosporine was used), and cases in which KT was performed with the use of tacrolimus and MMF (tacrolimus + MMF group). Four patients who underwent KT developed allograft failures, among whom only one patient was in the tacrolimus + MMF group; the other three patients were in the pre-tacrolimus/MMF group. The allograft survival rate was superior in patients in whom tacrolimus was used than in those in whom tacrolimus and MMF were not used (Fig. 2). Third allograft survival rates at 1, 5, and 10 years were
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81.8%, 42.9%, and 42.9%, respectively. We compared the first and second allograft survival rates to that of the third allograft. The survival rate of the third allograft was higher than those of the first and second allografts
in these patients (p = 0.034), but the strength of this conclusion is limited by the small number of patients included in the study (Fig. 3).
Table 3. Clinical outcomes after third transplantation Follow-up duration, mon
Case
Delayed graft function
Acute rejection
Infectious complication
Other complication
Current status
Cause of allograft failure
1
278.1
(–)
(–)
No
No
(–)
(–)
2
48.4
(–)
(+)
Disseminated tuberculosis, cellulitis
No
HD
Chronic rejection
3
70.7
(+)
(+)
Perianal abscess, leukopenia
No
HD
Acute rejection
4
1.8
(+)
(+)
No
HD
Acute rejection
No
5
119.0
(–)
(–)
Acute pyelonephritis
No
(–)
(–)
6
93.2
(–)
(–)
Acute pyelonephritis
Chronic pain syndrome
(–)
(–)
7
86.6
(–)
(–)
No
No
(–)
(–)
8
54.7
(–)
(–)
No
No
(–)
(–)
9
23.2
(–)
(–)
No
No
(–)
(–)
10
19.0
(–)
(–)
No
No
(–)
(–)
11
1.7
(+)
(+)
No
HD
Acute rejection
Acute pyelonephritis
HD, hemodialysis.
Without tacrolimus and MMF
100
With tacrolimus and MMF
100
1st KT 2nd KT
Allograft survival rate (%)
80
Allograft survival rate (%)
80 60 40
60
40
20
20
0
3rd KT
0 20
40
60
80
100
120
Post-transplant (mon)
Figure 2. Comparison of allograft survival rates between the pre-tacrolimus/MMF and tacrolimus + MMF groups. The tacrolimus + MMF group showed a higher 10-year allograft survival rate. Pre-tacrolimus/MMF:KT performed prior to the use of tacrolimus and MMF (azathioprine or cyclosporine was used); tacrolimus + MMF:KT performed with the use of tacrolimus and MMF. MMF, mycophenolate mofetil; KT, kidney transplantation.
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0
20
40
60
80
100
120
Post-transplant (mon)
Figure 3. Allograft survival rates of the first, second, and third allografts in kidney transplantation (KT) recipients. Note the better rates of survival in the third allografts (p = 0.034).
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DISCUSSION Despite significant advances in transplantation techniques and immune suppressants, renal allograft survival rates remain low. In this regard, re-transplantation is beneficial for those patients in terms of survival and quality of life [6,9]. At our centers, the survival rate of the second graft was not inferior to that of total primary transplantation or the findings of previous reports [1214,17,18]. However, the clinical outcomes of a third KT procedure have not been established, and various medical and surgical issues regarding a third KT procedure remain to be resolved [17]. Many patients belong to an immunologically highrisk group. Indeed, the most characteristic finding among patients who underwent a third KT procedure in this study was the high rate of sensitization. Of the five patients who underwent a PRA test, four had a PRA value > 50% and four of nine LDKT recipients (44.4%) showed a positive cross-match result, and therefore required pre-transplant desensitization therapy. In addition, the cause of allograft failure was acute rejection in three of four patients who developed allograft failure, which is consistent with earlier reports of high sensitization and allograft loss rates due to acute rejection [16,19,20]. Second, the manipulation of the previous transplant may involve technical difficulties and various surgical problems. Indeed, the surgical complication rate after a third KT procedure was higher than that after the first KT procedure; for example, the rates of vascular thrombosis, urinary obstruction, and vessel injury were higher in patients who underwent a third KT procedure than in those who underwent a first KT procedure [15,17]. Kidney grafts are usually placed in the right iliac fossa because this approach is easier than that on the left side as it avoids the sigmoid colon [21,22]. However, in patients undergoing a third KT procedure, allografts must be positioned in the previously manipulated space with restricted access to the iliac vessels because of the prior transplantation. Therefore, nephrectomy of the previous graft is required to ensure sufficient space for the third graft, which can result in further surgical complications. In most of the cases in our study, the right external iliac artery and vein were used and nephrectomy of the previous graft was performed. Therefore, various com-
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plications, such as perirenal hematoma and hydrocele with testicular necrosis, developed. Various alternative methods have been suggested, such as the use of the common iliac vessels and inferior vena cava instead of the iliac vessels, and some studies have recommended orthotopic techniques [23,24]. However, none of these methods exhibit clear superiority to the others; therefore, technical issues might develop during the third transplantation [13,15,25,26]. A total of four patients experienced allograft loss during the follow-up period, and the allograft survival rates at 1 and 5 years were 81.8% and 42.9%, respectively. However, most (75%) allograft failures developed in patients in whom tacrolimus and MMF were not used. Among those who underwent KT after using tacrolimus and MMF, allograft failure did not develop in LDKT recipients, and only one instance of allograft failure developed in DDKT recipients. Indeed, the graft survival rate of the tacrolimus + MMF group was higher than that of the pre-tacrolimus/MMF group (Fig. 2). This suggests that a third KT shows favorable outcomes with the currently used immune-suppressant regimen comprising tacrolimus and MMF [27,28]. In previous studies from other countries, the proportion of deceased donors has been considerably higher than that of living donors [15,17]. However, in our study, the majority of third KT procedures were performed using grafts from living, related donors. One reason for this was the fact that most Korean families prior to the 1990s had more than five members, meaning that sufficient donor sources were available within a family, even for second and third KT procedures [29]. However, with the change in Korean families to a “nuclear family” model, the proportion of living, related donors has decreased, whereas the proportions of spousal and deceased donors have increased [30]. This suggests that living, related donors will not be a major donor source for the second or third transplants in the near future. The need for desensitization and previous long-term use of immune suppressants may result in non-immunologic complications such as infection, cardiovascular issues, and posttransplant malignancies. In this study, cardiovascular mortality and posttransplant malignancy were not detected; only infectious complications, which were treated without sequelae, were observed. This suggests that strict and regular monitoring may prevent fa-
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tal complications associated with the long-term use of intense immune suppression. The limitations of this study were the small number of patients enrolled and the performance of transplantations at different time points. Nevertheless, the follow-up duration in most cases was > 10 years; therefore, various immunologic and non-immunologic complications, which can develop not only immediately after KT but also during long-term follow-up, were evaluated. In summary, the clinical outcomes of the third KT procedure are acceptable, especially with currently used immune-suppressant regimens and desensitization techniques. Various medical and surgical complications were detected, but most were treated without sequelae and did not affect allograft or patient outcomes. Therefore, we suggest that a third KT procedure could be a valuable option for patients who experience a second allograft failure.
literature surrounding nocturnal and short-daily hemodialysis. Nephrol Dial Transplant 2013;28:44-47. 2. Purnell TS, Auguste P, Crews DC, et al. Comparison of life participation activities among adults treated by hemodialysis, peritoneal dialysis, and kidney transplantation: a systematic review. Am J Kidney Dis 2013;62:953-973. 3. Jin DC, Ha IS, Kim NH, et al. Brief report: renal replacement therapy in Korea, 2010. Kidney Res Clin Pract 2012;31:62-71. 4. Smith RN, Malik F, Goes N, et al. Partial therapeutic response to Rituximab for the treatment of chronic alloantibody mediated rejection of kidney allografts. Transpl Immunol 2012;27:107-113. 5. Chung BH, Lee JY, Kang SH, et al. Comparison of patient outcome according to renal replacement modality after renal allograft failure. Ren Fail 2011;33:261-268. 6. Marcen R, Teruel JL. Patient outcomes after kidney allograft loss. Transplant Rev (Orlando) 2008;22:62-72. 7. de Jonge H, Bammens B, Lemahieu W, Maes BD, Van-
KEY MESSAGE 1. A third kidney transplantation procedure is associated with both immunologic and non-immunolo gic complications. 2. However, the clinical outcomes are acceptable, especially when current immune suppressant regimens and desensitization techniques are used. 3. Complications do not affect the long-term clinical outcomes of a third kidney transplantation.
renterghem Y. Comparison of peritoneal dialysis and haemodialysis after renal transplant failure. Nephrol Dial Transplant 2006;21:1669-1674. 8. Yang KS, Kim JI, Moon IS, et al. The clinical outcome of end-stage renal disease patients who return to peritoneal dialysis after renal allograft failure. Transplant Proc 2013;45:2949-2952. 9. Coupel S, Giral-Classe M, Karam G, et al. Ten-year survival of second kidney transplants: impact of immunologic factors and renal function at 12 months. Kidney Int 2003;64:674-680. 10. Hornberger JC, Best JH, Garrison LP Jr. Cost-effectiveness of repeat medical procedures: kidney transplanta-
Conflict of interest No potential conflict of interest relevant to this article was reported.
tion as an example. Med Decis Making 1997;17:363-372. 11. Matas AJ, Gillingham KJ, Payne WD, et al. A third kidney transplant: cost-effective treatment for end-stage renal disease? Clin Transplant 1996;10(6 Pt 1):516-520.
Acknowledgments This study was supported by a grant (HI13C1232) from the Korean Health Technology R&D Project, Ministry of Health and Welfare, Republic of Korea.
12. Ossareh S, Ghods AJ. Results of second renal transplants. Transplant Proc 1999;31:3122-3123. 13. Nourbala MH, Ghaheri H, Kardavani B. Our experience with third renal transplantation: results, surgical techniques and complications. Int J Urol 2007;14:1057-1059.
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